TIS11 family proteins and their roles in posttranscriptional gene regulation.
about
The roles of TTP and BRF proteins in regulated mRNA decaySteering tumor progression through the transcriptional response to growth factors and stromaSecondary interactions involving zinc-bound ligands: roles in structural stabilization and macromolecular interactionsZFP36L1 promotes monocyte/macrophage differentiation by repressing CDK6Post-transcriptional regulation of BCL2 mRNA by the RNA-binding protein ZFP36L1 in malignant B cellsA novel function of Tis11b/BRF1 as a regulator of Dll4 mRNA 3'-end processingDifferential expression and functional analysis of the tristetraprolin family during early differentiation of 3T3-L1 preadipocytesTristetraprolin inhibits poly(A)-tail synthesis in nuclear mRNA that contains AU-rich elements by interacting with poly(A)-binding protein nuclear 1Cysteine and histidine shuffling: mixing and matching cysteine and histidine residues in zinc finger proteins to afford different folds and function.Zinc finger protein ZFP36L1 promotes osteoblastic differentiation but represses adipogenic differentiation of mouse multipotent cellsGenome-wide in silico screen for CCCH-type zinc finger proteins of Trypanosoma brucei, Trypanosoma cruzi and Leishmania major.HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium HomeostasisPosttranscriptional Regulation of Cyclooxygenase 2 Expression in Colorectal CancerCoordinated expression of tristetraprolin post-transcriptionally attenuates mitogenic induction of the oncogenic Ser/Thr kinase Pim-1.Comprehensive analysis of CCCH zinc finger family in poplar (Populus trichocarpa).Myeloid ZFP36L1 does not regulate inflammation or host defense in mouse models of acute bacterial infectionZFP36L1 negatively regulates plasmacytoid differentiation of BCL1 cells by targeting BLIMP1 mRNA.Comparative functional analysis of ZFP36 genes during Xenopus development.A masked PY-NLS in Drosophila TIS11 and its mammalian homolog tristetraprolinTristetraprolin inhibits the growth of human glioma cells through downregulation of urokinase plasminogen activator/urokinase plasminogen activator receptor mRNAsHypoxia-inducible factor-1α mRNA: a new target for destabilization by tristetraprolin in endothelial cells.Drosophila eyes absent is a novel mRNA target of the tristetraprolin (TTP) protein DTIS11MicroRNA and AU-rich element regulation of prostaglandin synthesisResveratrol Induces Glioma Cell Apoptosis through Activation of Tristetraprolin.Interaction with Pyruvate Kinase M2 Destabilizes Tristetraprolin by Proteasome Degradation and Regulates Cell Proliferation in Breast Cancer.mTOR regulates cellular iron homeostasis through tristetraprolin.Post-transcriptional regulation of iron homeostasis in Saccharomyces cerevisiae.The 5'-3' exoribonuclease Pacman (Xrn1) regulates expression of the heat shock protein Hsp67Bc and the microRNA miR-277-3p in Drosophila wing imaginal discs.The cAMP pathway regulates mRNA decay through phosphorylation of the RNA-binding protein TIS11b/BRF1.ZFP36L2 promotes cancer cell aggressiveness and is regulated by antitumor microRNA-375 in pancreatic ductal adenocarcinoma.Trans-acting proteins regulating mRNA maturation, stability and translation in trypanosomatids.Functional interactions between mRNA turnover and surveillance and the ubiquitin proteasome system.Multiple functions of tristetraprolin/TIS11 RNA-binding proteins in the regulation of mRNA biogenesis and degradation.Engineering RNA-binding proteins for biologyRNA binding proteins as regulators of immune cell biology.A single cell level measurement of StAR expression and activity in adrenal cells.dTIS11 Protein-dependent polysomal deadenylation is the key step in AU-rich element-mediated mRNA decay in Drosophila cells.Casein kinase 2 regulates the mRNA-destabilizing activity of tristetraprolin.mRNA degradation plays a significant role in the program of gene expression regulated by phosphatidylinositol 3-kinase signaling.Tis11 mediated mRNA decay promotes the reacquisition of Drosophila intestinal stem cell quiescence.
P2860
Q24633013-B2A1F3CA-D8CB-40DD-9B67-D89618A6088FQ26865967-BE5C9993-ED8A-454B-95AC-C0D46E1DEA5AQ26992113-F724E9D9-D039-4807-9E0E-2195C5659177Q28114783-630636A8-8364-4DD4-8E56-476AD030B220Q28115374-2A39B139-A3BB-4964-82EA-E16DD9E3B86EQ28115661-188A7656-0207-46BF-8F7E-67848C7463D3Q28505723-8C47494D-F788-4742-B12F-2957F6FF6B43Q28506698-ACB8F066-703B-4B52-8B12-65763B699E3BQ30407509-2FCB87A4-6351-464E-80CE-4309FE45D346Q33591250-7E2FE3F3-687F-46EC-A2C1-0BCA7A644625Q33864331-422A1782-D6F4-400A-B5CA-DFF6E9AD2FB5Q33881594-764DC216-178F-4E82-9ADE-2DF215CD16C4Q33924658-7419FA4C-C77B-48A7-AA53-8EF006EEEFAAQ34193713-339A8AE8-CE70-4966-8923-E1CF0C890F44Q34307730-E581FFAB-FD47-49ED-8513-AD8B20CCA088Q34316013-3C841305-0C92-4FD9-A830-40B4A138A66BQ34533271-F1B634D3-6979-424D-901A-D8C61CC386D7Q34559527-2B3755EA-A251-44DC-A4E1-64EDD8BCDA7BQ34950313-89D9D9D9-0A14-4E0F-B58E-AB7D1AD2BA88Q35093788-44969865-096E-42A9-9891-4C74F8195B9EQ35210986-C538F116-12DA-427B-BCE5-023A031ED8D9Q35926324-861AA6B4-742B-422F-8F48-167C0AEA8FF2Q36249379-CA1ED71C-B682-4745-97E1-A0E0B04BD670Q36356758-366073C5-6D90-4985-AE70-F628B636FAEFQ36633446-255B7628-8E04-44F0-A3B3-DC2897CA73ACQ36675850-6AA3C38F-9BE0-4561-854E-E9BB974D110FQ37139091-853EAE49-E5CD-49A7-9B72-F4197A1CA3A9Q37278911-455196BD-5522-4EBB-BAD8-E28A469F77D1Q37518110-77711C84-E457-4C4F-B76A-8DCC6D3F3990Q37611692-31DA1623-5EB6-46AE-9C45-7183B7BB19AAQ37770662-43EFA032-CC74-4DA4-8BE0-CBDE36F69975Q37936372-7FBF9A24-D02B-4E8A-8E5D-E19122416F98Q38042546-28F363B2-BEEE-4EDE-8F4D-0FACC5042BD6Q38112460-517E0748-E498-4D15-9967-084BE5DFE934Q38552147-8B43AE8D-A6ED-4B99-A34D-917E3010F2FDQ38927075-E56F8AA7-47A7-417B-A52E-5ADFAE0AFBFBQ39288616-DE963E00-351A-426D-8A17-9D5B918BF084Q39555596-F10DBF25-A57F-4B58-A9F8-B15CEB67C716Q39653613-F11DB9C2-A24C-4EEB-868A-52A9F3703AC2Q40236646-67C1E92F-FC17-482E-8094-7251F222AE4B
P2860
TIS11 family proteins and their roles in posttranscriptional gene regulation.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 06 August 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
TIS11 family proteins and their roles in posttranscriptional gene regulation.
@en
TIS11 family proteins and their roles in posttranscriptional gene regulation.
@nl
type
label
TIS11 family proteins and their roles in posttranscriptional gene regulation.
@en
TIS11 family proteins and their roles in posttranscriptional gene regulation.
@nl
prefLabel
TIS11 family proteins and their roles in posttranscriptional gene regulation.
@en
TIS11 family proteins and their roles in posttranscriptional gene regulation.
@nl
P2093
P2860
P921
P356
P1476
TIS11 family proteins and their roles in posttranscriptional gene regulation.
@en
P2093
Andrew Jewell
John J Murphy
Maria Baou
P2860
P304
P356
10.1155/2009/634520
P577
2009-08-06T00:00:00Z